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首页> 外文期刊>Journal of Materials Chemistry, B. materials for biology and medicine >Copper metal-organic polyhedra nanorods with high intrinsic peroxidase-like activity at physiological pH for bio-sensing
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Copper metal-organic polyhedra nanorods with high intrinsic peroxidase-like activity at physiological pH for bio-sensing

机译:铜金属 - 有机多面体在生理pH下具有高固有过氧化物酶样活性的生物传感

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摘要

Enzyme-mimicking nanomaterials (nanozymes) have been used to catalyze enzyme-like reactions for various applications. Despite these favorable properties, peroxidase-mimicking nanozymes suffer from the optimum reaction occurring in acidic solutions, which greatly limits their applications in biological systems. Herein, we demonstrate that copper Metal-Organic Polyhedra (Cu-MOP) nanorods exhibit high peroxidase-mimicking activity at a physiological pH value. Cu-MOP nanorods catalyze the generation of strong chemiluminescence signals in the presence of luminol/H2O2 and the oxidation of 2,2'-azinobis-(3-ethylbenzthiazoline-6-sulphonate acid) (ABTS) by H2O2 produces a green color reaction in a neutral pH solution. The Cu-MOP nanorod driven generation of color reactions is applied to develop a H2O2 sensor, and furthermore is implemented to develop a glucose detection platform.
机译:酶模拟纳米材料(纳佐)已被用于催化酶样反应的各种应用。 尽管存在这些有利的性质,但过氧化物酶模拟纳米酶患有酸性溶液中发生的最佳反应,这极大地限制了它们在生物系统中的应用。 在此,我们证明铜金属 - 有机多面体(Cu-MOP)纳米棒在生理pH值下表现出高过氧酶模拟活性。 Cu-Mop纳米棒催化在Luminol / H 2 O 2存在下产生强化学发光信号,并通过H 2 O 2氧化2,2'-α-吲哚二苯(3-乙基脲-6-磺酸盐酸)(ABTS)产生绿色反应 中性pH溶液。 施加Cu-Mop纳米棒驱动的颜色反应产生的颜色反应产生H2O2传感器,并且还被实施为开发葡萄糖检测平台。

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    Qin Yu; Zhang Qin; Li Yande; Liu Xiaolan; Lu Zhixiang; Zheng Liyan; Liu Shixi; Cao Qiu-e; Ding Zhongtao;

  • 作者单位

    Yunnan Univ Key Lab Med Chem Nat Resource Funct Mol Anal &

    Biotransformat Key Lab Univ Yunn Minist Educ Sch Chem Sci &

    Technol Kunming 650091 Yunnan Peoples R China;

    Yunnan Univ Key Lab Med Chem Nat Resource Funct Mol Anal &

    Biotransformat Key Lab Univ Yunn Minist Educ Sch Chem Sci &

    Technol Kunming 650091 Yunnan Peoples R China;

    Yunnan Univ Key Lab Med Chem Nat Resource Funct Mol Anal &

    Biotransformat Key Lab Univ Yunn Minist Educ Sch Chem Sci &

    Technol Kunming 650091 Yunnan Peoples R China;

    Yunnan Univ Key Lab Med Chem Nat Resource Funct Mol Anal &

    Biotransformat Key Lab Univ Yunn Minist Educ Sch Chem Sci &

    Technol Kunming 650091 Yunnan Peoples R China;

    Yunnan Univ Key Lab Med Chem Nat Resource Funct Mol Anal &

    Biotransformat Key Lab Univ Yunn Minist Educ Sch Chem Sci &

    Technol Kunming 650091 Yunnan Peoples R China;

    Yunnan Univ Key Lab Med Chem Nat Resource Funct Mol Anal &

    Biotransformat Key Lab Univ Yunn Minist Educ Sch Chem Sci &

    Technol Kunming 650091 Yunnan Peoples R China;

    Yunnan Univ Key Lab Med Chem Nat Resource Funct Mol Anal &

    Biotransformat Key Lab Univ Yunn Minist Educ Sch Chem Sci &

    Technol Kunming 650091 Yunnan Peoples R China;

    Yunnan Univ Key Lab Med Chem Nat Resource Funct Mol Anal &

    Biotransformat Key Lab Univ Yunn Minist Educ Sch Chem Sci &

    Technol Kunming 650091 Yunnan Peoples R China;

    Yunnan Univ Key Lab Med Chem Nat Resource Funct Mol Anal &

    Biotransformat Key Lab Univ Yunn Minist Educ Sch Chem Sci &

    Technol Kunming 650091 Yunnan Peoples R China;

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  • 正文语种 eng
  • 中图分类 分析化学 ;
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